Decadal analysis of stratospheric ozone depletion using data assimilation and Odin/SMR measurements
Doctoral thesis, 2016

Serious ozone depletion has been measured every Antarctic spring since the early 80’s. This ozone depletion is considered to be a result of photo-chemical reactions and catalytic cycles resulting from anthropogenic halogen containing gases. facilitated by the formation of Polar Stratospheric Clouds (PSCs). The reactive halogen species are released through heterogeneous reactions on the surface of the particles. Currently, global ozone is recovering during past decades as a result of the Montreal Protocol (1987) on the control of ozone depleting substances (ODSs). Arctic ozone depletion is, on the other hand, less severe and show larger variability than Antarctic loss because of the unstable and warmer condition. However, the Arctic stratosphere has been becoming colder and the Arctic ozone loss in the 2011 winter was comparable to Antarctic losses. Ozone depletion is directly/indirectly linked to the climate because the absorption of UV radiation changes the temperature field. It is therefore important to quantify the loss for future climate prediction. The aim of this thesis is to quantify ozone depletions in several Arctic and Antarctic winters using ozone profiles measured by Odin/SMR and a data assimilation tech- nique which is generally used in numerical weather prediction. The DIAMOND (Dynamical Isentropic Assimilation Model for Odin Data) is used in this thesis. A new vertical transport scheme was implemented into the DIAMOND model to account for the diabatic descent inside the polar vortex during the polar night. The new version of the DIAMOND model was examined for the specific northern winter (2009/2010) when SMILES (Superconducting Submillimeter-Wave Limb-Emission Sounder) ob- served stratospheric species as well as SMR. A decadal record of ozone depletion has been determined by comparing the assimilated fields to passively transported fields initialized by assimilation of SMR ozone data. Ozone retrieved from the emission line at 544GHz has been demonstrated for use in ozone depletion studies in the thesis. Two different chemical mechanisms, the Cl catalytic cycle with PSC formation and NOx related chemistry, can explain losses at different altitudes that occurred in the polar winters. This thesis also propose an other methodology to quantify ozone depletion utilising assimilation information.

ozone loss

remote sensing

stratosphere

limb sounding

data assimilation

EA-rummet, Hörsalsvägen 11, Chalmers University of Technology
Opponent: Prof. John Burrows, Institute of Environmental Physics, Atmospheric physics and chemistry, University of Bremen, Germany

Author

Kazutoshi Sagi

Chalmers, Earth and Space Sciences, Global Environmental Measurements and Modelling

Subject Categories

Meteorology and Atmospheric Sciences

ISBN

978-91-7597-382-1

Doktorsavhandlingar vid Chalmers tekniska högskola. Ny serie: 4063

EA-rummet, Hörsalsvägen 11, Chalmers University of Technology

Opponent: Prof. John Burrows, Institute of Environmental Physics, Atmospheric physics and chemistry, University of Bremen, Germany

More information

Created

10/7/2017